Nanoheat source generated by leaky light mode within a nano-waveguide for small electrical power generatorKAMOLDILOK, Surachart; YUPAPIN, Preecha P.Energy conversion and management. 2012, Vol 64, pp 23-27, issn 0196-8904, 5 p.Article

Flexible piezoelectric nanogenerator made of poly (vinylidenefluoride-co-trifluoroethylene) (PVDF-TrFE) thin filmZHAOYANG PI; JINGWEI ZHANG; CHENYU WEN et al.Nano energy (Print). 2014, Vol 7, pp 33-41, issn 2211-2855, 9 p.Article

Self-powered velocity and trajectory tracking sensor array made of planar triboelectric nanogenerator pixelsCHANG BAO HAN; CHI ZHANG; XIAO HUI LI et al.Nano energy (Print). 2014, Vol 9, pp 325-333, issn 2211-2855, 9 p.Article

Effect of humidity and pressure on the triboelectric nanogeneratorVU NGUYEN; RUSEN YANG.Nano energy (Print). 2013, Vol 2, Num 5, pp 604-608, issn 2211-2855, 5 p.Article

Finger typing driven triboelectric nanogenerator and its use for instantaneously lighting up LEDsJUNWEN ZHONG; QIZE ZHONG; FENGRU FAN et al.Nano energy (Print). 2013, Vol 2, Num 4, pp 491-497, issn 2211-2855, 7 p.Article

Triboelectric nanogenerator built inside shoe insole for harvesting walking energyHOU, Te-Chien; YA YANG; HULIN ZHANG et al.Nano energy (Print). 2013, Vol 2, Num 5, pp 856-862, issn 2211-2855, 7 p.Article

Triboelectric nanogenerator for harvesting pendulum oscillation energySANGMIN LEE; YEAN LEE; DONGSEOB KIM et al.Nano energy (Print). 2013, Vol 2, Num 6, pp 1113-1120, issn 2211-2855, 8 p.Article

Surface-charge engineering for high-performance triboelectric nanogenerator based on identical electrification materialsXIAO YAN WEI; GUANG ZHU; ZHONG LIN WANG et al.Nano energy (Print). 2014, Vol 10, pp 83-89, issn 2211-2855, 7 p.Article

Nanogenerator based on zinc blende CdTe micro/nanowiresHOU, Te-Chien; YA YANG; LIN, Zong-Hong et al.Nano energy (Print). 2013, Vol 2, Num 3, pp 387-393, issn 2211-2855, 7 p.Article

Triboelectric nanogenerator built inside clothes for self-powered glucose biosensorsHULIN ZHANG; YA YANG; HOU, Te-Chien et al.Nano energy (Print). 2013, Vol 2, Num 5, pp 1019-1024, issn 2211-2855, 6 p.Article

Enhancing the performance of triboelectric nanogenerator through prior-charge injection and its application on self-powered anticorrosionZHE WANG; LI CHENG; YOUBIN ZHENG et al.Nano energy (Print). 2014, Vol 10, pp 37-43, issn 2211-2855, 7 p.Article

Investigation of power generation based on stacked triboelectric nanogeneratorTANG, W; MENG, B; ZHANG, H. X et al.Nano energy (Print). 2013, Vol 2, Num 6, pp 1164-1171, issn 2211-2855, 8 p.Article

Piezoelectric nanogenerator with a nanoforest structureSEOL, Myeong-Lok; CHOI, Ji-Min; KIM, Jee-Yeon et al.Nano energy (Print). 2013, Vol 2, Num 6, pp 1142-1148, issn 2211-2855, 7 p.Article

The Influence of Resistance and Carrier Concentration on the Output Voltage of a ZnO Nanogenerator : NanoCon 2012DEN HEEVER, Thomas Stanly Van; PEROLD, Willem Jakobus.IEEE transactions on nanotechnology. 2013, Vol 12, Num 6, pp 1012-1017, issn 1536-125X, 6 p.Article

Comparing three different energy harvesting circuits for a ZnO nanowire based nanogeneratorVAN DEN HEEVER, T. S; PEROLD, W. J.Smart materials and structures. 2013, Vol 22, Num 10, issn 0964-1726, 105029.1-105029.7Article

A self-powered AC magnetic sensor based on piezoelectric nanogeneratorAIFANG YU; MING SONG; YAN ZHANG et al.Nanotechnology (Bristol. Print). 2014, Vol 25, Num 45, issn 0957-4484, 455503.1-455503.6Article

Two dimensional woven nanogeneratorSUO BAI; LU ZHANG; QI XU et al.Nano energy (Print). 2013, Vol 2, Num 5, pp 749-753, issn 2211-2855, 5 p.Article

Magnetic Force Driven Nanogenerators as a Noncontact Energy Harvester and SensorNUANYANG CUI; WEIWEI WU; YONG ZHAO et al.Nano letters (Print). 2012, Vol 12, Num 7, pp 3701-3705, issn 1530-6984, 5 p.Article

Brownian motion of magnetic nanoparticles as a source of energy?POLACEK, Josef; ALEXA, Petr.International journal of nanotechnology. 2013, Vol 10, Num 12, pp 1109-1114, issn 1475-7435, 6 p.Article

Functional Electrical Stimulation by Nanogenerator with 58 V Output VoltageGUANG ZHU; WANG, Aurelia C; YING LIU et al.Nano letters (Print). 2012, Vol 12, Num 6, pp 3086-3090, issn 1530-6984, 5 p.Article

Integrated nanogenerators in biofluidXUDONG WANG; JIN LIU; JINHUI SONG et al.Nano letters (Print). 2007, Vol 7, Num 8, pp 2475-2479, issn 1530-6984, 5 p.Article

Biomolecule-adsorption-dependent piezoelectric output of ZnO nanowire nanogenerator and its application as self-powered active biosensorYAYU ZHAO; PING DENG; YUXIN NIE et al.Biosensors & bioelectronics. 2014, Vol 57, pp 269-275, issn 0956-5663, 7 p.Article

Synthesis of homogeneous (Na₁―_xK_x)NbO₃ nanorods using hydrothermal and post-heat treatment processesHAIBO XU; JOUNG, Mi-Ri; KIM, Jin-Seong et al.Chemical engineering journal (1996). 2012, Vol 211-12, pp 16-21, issn 1385-8947, 6 p.Article

Hybrid triboelectric nanogenerator for harvesting water wave energy and as a self-powered distress signal emitterYUANJIE SU; XIAONAN WEN; GUANG ZHU et al.Nano energy (Print). 2014, Vol 9, pp 186-195, issn 2211-2855, 10 p.Article

Hybridizing Energy Conversion and Storage in a Mechanical-to-Electrochemical Process for Self-Charging Power CellXINYU XUE; SIHONG WANG; WENXI GUO et al.Nano letters (Print). 2012, Vol 12, Num 9, pp 5048-5054, issn 1530-6984, 7 p.Article